Your search keyword '"Qv, Wenrui"' showing total 2 results

1. Effects of nanoplastic exposure routes on leaf decomposition in streams.

Author

Du, Jingjing, Wang, Xilin, Tao, Tianying, Su, Yan, Zhang, Xueting, Shao, Jing, Zhang, Yufan, Yu, Luyao, Jin, Baodan, Qv, Wenrui, Cao, Xia, Wang, Lan, and Yang, Yanqin

Subjects

FOREST litter, PLASTICS, FOOD chains, OXIDATIVE stress, SNAILS, MICROBIAL enzymes

Abstract

Polystyrene nanoparticles (PS NPs) released from plastic products have been demonstrated to pose a threat to leaf litter decomposition in streams. Given the multitrophic systems of species interactions, the effects of PS NPs through different exposure routes on ecosystem functioning remain unclear. Especially dietary exposure, a frequently overlooked pathway leading to toxicity, deserves more attention. A microcosm experiment was conducted in this study to assess the effects of waterborne and dietary exposure to PS NPs on the litter-based food chain involving leaves, microbial decomposers, and detritivores (river snails). Compared to waterborne contamination, dietary contamination resulted in lower microbial enzyme activities and a significantly higher decrease in the lipid content of leaves. For river snails, their antioxidant activity was significantly increased by 20.21%–69.93%, and their leaf consumption rate was significantly reduced by 16.60% through the dietary route due to the lower lipid content of leaves. Besides, the significantly decreased nutritional quality of river snails would negatively influence their palatability to predators. The findings of this study indicate that dietary exposure to PS NPs significantly impacts microbial and detritivore activities, thus affecting their functions in the detritus food chain as well as nutrient cycling. [Display omitted] • Impacts of PS NPs on detrital food chain were dependent on exposure routes. • A less lipid in leaves was due to reduced microbial activity by contaminated leaves. • Detritivores had severer oxidative stress and lower consumption by dietary exposure. • Dietary exposure to PS NPs led to the lowest quality of detritivore for its predator. [ABSTRACT FROM AUTHOR]

Published

2024

2. How do visible and UV light affect the structure and function of leaf-associated aquatic fungal communities polluted by TiO2nanoparticles?Electronic supplementary information (ESI) available. See DOI: 10.1039/d1en00275a

Author

Du, Jingjing, Qv, Wenrui, Pu, Gaozhong, Qv, Mingxiang, Zhang, Jin, Zhang, Wenfang, and Zhang, Hongzhong

Abstract

Most intensively studied nanoparticles (NPs) possess photocatalytic activity. However, knowledge of the ecotoxicity of TiO2NPs in response to the natural photoperiod remains scarce. To increase our understanding of the phototoxicity of TiO2NPs toward aquatic fungal communities, regarding their structure and functioning, a microcosm experiment was conducted involving narrow-leaf cattail (Typha angustifolia) leaf decomposition with TiO2NPs (50 mg L−1) under different light conditions (visible light, UV light, and the natural photoperiod) for 214 days. Although different light conditions led to significant variations in leaf decomposition, the decomposition rate was not significantly affected by TiO2NP exposure under either visible or UV light, and it even increased by 15.19% under the natural photoperiod. During the ecological process, significant decreases were observed in the fungal biomass, overall microbial activity, and some extracellular enzymatic (cellobiohydrolase and polyphenol oxidase) activities. Also, TiO2NPs under visible light and UV light reduced the fungal community diversity and led to the selection of some tolerant fungal species (e.g., Anguillospora longissima) that performed poorly in leaf decomposition under chronic exposure. The information provided here will help us to deeply evaluate the ecotoxicity of nanoparticles on freshwater ecosystem functioning under ambient light conditions.

Published

2022